sameAs
p53-dependent expression of CXCR5 chemokine receptor in MCF-7 breast cancer cellsHomodimer of p50 (NF kappa B1) does not introduce a substantial directed bend into DNA according to three different experimental assaysCloning and characterization of TNKL, a member of tankyrase gene family.[Comparative characteristics of transcription of genes for alpha and beta-lymphotoxin subunits in B- and T-lymphocyte lines, in peripheral lymphocytes, and in normal human tissue]Evaluation of humoral response to tumor antigens using recombinant expression-based serological mini-arrays (SMARTA).Serological identification of antigens associated with renal cell carcinoma.Antibody response to a non-conserved C-terminal part of human histone deacetylase 3 in colon cancer patients.Inhibitory effects of tumor necrosis factor on hematopoiesis seen in vitro are translated to increased numbers of both committed and multipotent progenitors in TNF-deficient mice.Autoantibodies to tumor-associated antigens as cancer biomarkers.Clusterin is a potential lymphotoxin beta receptor target that is upregulated and accumulates in germinal centers of mouse spleen during immune response.Cloning and expression analysis of the murine lymphotoxin beta gene.Redundancy in tumor necrosis factor (TNF) and lymphotoxin (LT) signaling in vivo: mice with inactivation of the entire TNF/LT locus versus single-knockout miceStructural Relationship of the Lipid A Acyl Groups to Activation of Murine Toll-Like Receptor 4 by Lipopolysaccharides from Pathogenic Strains of Burkholderia mallei, Acinetobacter baumannii, and Pseudomonas aeruginosa.TLR-signaling and proinflammatory cytokines as drivers of tumorigenesis.RAP80/UIMC1 as cancer-associated antigen: alternative splice variants and their immunogenicity.Novel lymphotoxin alpha (LTalpha) knockout mice with unperturbed tumor necrosis factor expression: reassessing LTalpha biological functions.Nonredundant function of soluble LTα3 produced by innate lymphoid cells in intestinal homeostasis.UV fluorescence of tryptophan residues effectively measures protein binding to nucleic acid fragments immobilized in gel elements of microarrays.Cellular source and molecular form of TNF specify its distinct functions in organization of secondary lymphoid organs.Control of Mycobacterial Infections in Mice Expressing Human Tumor Necrosis Factor (TNF) but Not Mouse TNF.The single nucleotide variant rs12722489 determines differential estrogen receptor binding and enhancer properties of an IL2RA intronic regionIntracellular signals and events activated by cytokines of the tumor necrosis factor superfamily: From simple paradigms to complex mechanisms.Physiological functions of tumor necrosis factor and the consequences of its pathologic overexpression or blockade: mouse models.Tumor necrosis factor, lymphotoxin and cancer.TNF in host resistance to tuberculosis infection.Multiple single nucleotide polymorphisms in the first intron of the IL2RA gene affect transcription factor binding and enhancer activity.Early B-cell factor 1 (EBF1) is critical for transcriptional control of SLAMF1 gene in human B cells.Chemokines, cytokines and exosomes help tumors to shape inflammatory microenvironment.Mechanisms of Changes in Immune Response during Bacterial Coinfections of the Respiratory Tract.Dynamic changes in chromatin conformation at the TNF transcription start site in T helper lymphocyte subsets.Modeling of viral-bacterial coinfections at the molecular level using agonists of innate immunity receptors.The role of p105 protein in NFkappaB activation in ANA-1 murine macrophages following stimulation with titanium particles.Functional analysis of the lymphotoxin-beta promoter. Sequence requirements for PMA activation.Distinct biological activity of lipopolysaccharides with different lipid A acylation status from mutant strains of Yersinia pestis and some members of genus Psychrobacter.Upstream open reading frames regulate translation of the long isoform of SLAMF1 mRNA that encodes costimulatory receptor CD150.Low level of Lck kinase in Th2 cells limits expression of CD4 co-receptor and S73 phosphorylation of transcription factor c-JunHuman tankyrases are aberrantly expressed in colon tumors and contain multiple epitopes that induce humoral and cellular immune responses in cancer patients.Ablation of TNF or lymphotoxin signaling and the frequency of spontaneous tumors in p53-deficient mice.Expression of lymphotoxin beta governs immunity at two distinct levels.Cyclosporin A blocks the expression of lymphotoxin alpha, but not lymphotoxin beta, in human peripheral blood mononuclear cells.
P50
Q28259090-E6D9CDF8-4C7C-4F2F-9A75-5EACEC0CCF1DQ28776502-58209C18-866D-40D4-8C41-401418B1C7D9Q30985690-BB0BCD1B-DBC9-4E5D-9838-1756E7076102Q32103507-C8CA2BC1-938B-4613-9FC9-AB4A05417C8CQ33185563-18146F97-5AB1-4828-8612-9FEE7BEEECBFQ33186609-9BD5B784-EBD3-47C7-841B-51B94C2AE1B9Q33217993-EBF138E8-CC9E-4363-9F85-0FFCB390F103Q33226434-84BB5FC8-A870-419C-BB6D-CF922AF08FFBQ33536109-A5D9A894-CA80-45FD-8EF7-397897E877A8Q33670542-06606D72-A4CC-4BD5-8EB7-10210DCE4248Q33670542-1D0EF1B0-AB5E-42F6-B997-7A22E694FC3FQ34317868-F8C7D3CB-DFB2-4372-A3CF-B73422FB6F7AQ34443174-4BE531F7-BDF1-4A46-984F-385A191DB1A9Q34504085-4140F7D5-F66B-4C53-AF08-6A798C831EE8Q34512812-32D5A0AA-A2AD-404A-B3C6-FFBFC1E7D2A4Q34636484-9815FD66-8C9E-4607-BA55-F911B59E7A39Q34717984-078DDE06-08E0-4A52-B055-F134F92A2B81Q35060073-3571C32C-8A4C-4F31-A92E-4E2428AEB505Q35187160-8F774557-AB6E-4A56-A9B9-3A826D8FEF49Q35876885-E9C2D200-02AF-4E85-8ADC-891CD3799060Q35947483-09C201BD-5A61-4BB7-B04A-06B8553B871CQ36289774-BD853F71-6C38-47CD-AF74-6B67AE067FEEQ36597952-2B6DF43E-E448-4909-A628-548660242D71Q37173036-A040B74A-9A12-4CDF-A8A1-79AE09B1D31AQ37692372-6B9A0FE0-613C-4F03-84FE-33FEAA397AA4Q37696087-E10A03B4-BE8E-445D-BE42-9EEDB75C9581Q38729581-30EAD4FB-5C18-4D7D-AD3E-C81F40515F7FQ38757738-FDBE25C5-B71F-4835-867D-C13F348999BDQ38950542-C92310D9-2D62-4072-AD5C-2CFA15904206Q39028284-E2A4A1D1-B942-4D26-8ED8-33B530394026Q39099558-6D41AC3F-AD6D-45EE-8934-8E026CBEA1F6Q40383209-489BBCC8-04D9-4EBB-BB1D-8EEAB2B8C126Q40711940-800DB26B-BDBE-496E-B4D5-97ED636DDB77Q41208014-A5897B28-BC10-4E41-B01C-69C1932CCFA4Q41378401-6B214352-6A0F-49DF-8F4E-0476E9FB7E1FQ42159666-978C6763-53E0-4CD8-9E65-9D90EEAB092CQ42246262-37FB5861-DCD6-4BFF-B7A7-8982A04AA66FQ42637499-AF459D87-92B6-4C8F-99B2-4DB7F9A6F610Q43903951-D0B87AAA-1215-4DCD-8EAF-08FD1884A44EQ44010556-DC4D3457-3B97-475A-83CF-A9962B72E5EE
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Dmitri Wladimirowitsch Kuprasch
@de
Dmitry Kuprash
@ast
Dmitry Kuprash
@en
Dmitry Kuprash
@es
Dmitry Kuprash
@nl
Dmitry Kuprash
@sl
Купраш, Дмитрий Владимирович
@ru
type
label
Dmitri Wladimirowitsch Kuprasch
@de
Dmitry Kuprash
@ast
Dmitry Kuprash
@en
Dmitry Kuprash
@es
Dmitry Kuprash
@nl
Dmitry Kuprash
@sl
Купраш, Дмитрий Владимирович
@ru
altLabel
Dmitri Kuprasch
@de
Dmitry Vladimirovich Kuprash
@en
prefLabel
Dmitri Wladimirowitsch Kuprasch
@de
Dmitry Kuprash
@ast
Dmitry Kuprash
@en
Dmitry Kuprash
@es
Dmitry Kuprash
@nl
Dmitry Kuprash
@sl
Купраш, Дмитрий Владимирович
@ru
P1053
O-4899-2015
P106
P21
P2798
P31
P3829
P496
0000-0002-1488-4148
P569
1968-07-04T00:00:00Z